JOURNAL BROWSE
Search
Advanced SearchSearch Tips
Resource Allocation Scheme for Macro-Femtocell Overlaid LTE-Advanced Networks
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Resource Allocation Scheme for Macro-Femtocell Overlaid LTE-Advanced Networks
Lee, Jong-Chan; Lee, Moon-Ho;
  PDF(new window)
 Abstract
The heterogeneous LTE-Advanced networks comprising a macrocell and femtocells can provide an efficient solution not only to extend macrocell coverage but also to deal with packet traffics increasing explosively within macrocells. Efficient resource management schemes are necessary to maintain the QoS requirements of versatile multimedia applications in LTE-Advanced networks because their service-continuity may be defected by some delay and information loss. In this paper, we propose a resource allocation method for the heterogeneous LTE-Advancedl networks overlaid with femtocells. Performances are analyzed by simulation.
 Keywords
resource management;overlaid cell;mobile multimedia service;Quality of Service;
 Language
Korean
 Cited by
1.
Service Block Based Resource Allocation Scheme for Macrocell-Femtocell Networks,;;

한국컴퓨터정보학회논문지, 2015. vol.20. 6, pp.29-35 crossref(new window)
2.
Resource Allocation for QoS Provisioning in Overlaid Macrocell-Femtocell Networks,;;

한국컴퓨터정보학회논문지, 2015. vol.20. 10, pp.53-59 crossref(new window)
 References
1.
H. Claussen, D. Calin, "Macrocell Offloading Benefits in Joint Macro-and Femtocell Deployments," in Proc., IEEE 20th International. Symp. On Pers. Indoor and Mobile Radio Commun.(PIMRC), pp. 350-354, Sep. 2009.

2.
N. Saquib, E. Hossain, L.B Le and D.I Kim, "Interference Management in OFDMA Femtocell Networks: Issues and Approaches," IEEE Commun. Mag., Vol. 19, No. 3, pp. 86-95, Jun. 2012.

3.
V. Chandrasekhar and J. G. Andrews, "Femtocell Networks: A Survey," IEEE Communications Magazine, Vol. 46, No. 9, pp.59-67, Jan. 2008. crossref(new window)

4.
K. H. Cho, and D. H. Kim, "Load-balanced Handover Based on Adaptive Hysteresis in a Femto-Cell System," Proc. Convergence and Hybrid Information Technology Communications in Computer and Information Science 6th International Conference, Vol. 310, pp. 1-8, Aug. 2012.

5.
R. Ellouze, M. Gueroui, and A. M. Alimi, "Macrofemto Cell Handover with Enhanced QoS in Mobile WiMAX," Proc. Wireless Telecommunications Symposium, pp. 1-6, Apr. 2011.

6.
Z. Becvar and P. Mach, "Adaptive Hysteresis Margin for Handover in Femtocell Networks," Proc. Wireless and Mobile Communications International Conference, pp. 256-261, Sep. 2010.

7.
F. Zhong and S. Yong, "Access and Handover Management for Femtocell Systems," Proc. IEEE Vehicular Technology Conference, pp. 1-5, May 2010.

8.
M. Z. Chowdhury, Y. M. Jang, and Z. J. Haas, "Interference Mitigation Using Dynamic Frequency Re-use for Dense Femtocell Network Architectures," IEEE Int. Conf. on Ubiquitous and Future Networks (ICUFN), pp. 256-261, Jun. 2010.

9.
Nguyen Tien Dung, Chang Soon Kang, "A Dynamic Downlink Load Control Scheme with Virtual Coverage Adjustments for Two-tier LTE Systems," in Proc., IEEE 2011 International Conference on ICT Convergence (ICTC), pp. 487-492, Sep. 2011.

10.
H. Claussen, "Performance of Macro- and Cochannel Femtocells in a Hierarchical Cell Structure," IEEE 18th International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC 2007), pp. 1-.5, Sep. 2007.

11.
M. Vondra, Z. Becvar, "Connection Cost Based Handover Decision for Offloading Macrocells by Femtocells," in Proc., Wired/Wireless Internet Communication 10th International Conference, WWIC 2012, pp. 208-219, Jun, 2012.

12.
K. Cho, W. Lee, D. Yoon, K. Hyun, "Resource Alloation for Orthogonal and Co-channel Femtocells in a Hierarchical Cell Structure," 13th IEEE International Symposium on Consumer Electronics (ISCE2009), pp. 655-656, 25-28 May 2009.

13.
Thomas Novlan et al, "Comparison of Fractional Frequency Reuse Approaches in the OFDMA Cellular Downlink", IEEE GLOBECOM 2010, pp.1-5, 6-10 Dec. 2010.

14.
F. Tariq, L. S. Dooley, A. S. Poulton, "Dynamic Fractional Frequency Reuse based Hybrid Resource Management for Femtocell Networks", Wireless Communications and Mobile Computing Conference (IWCMC), 7th International, pp.272-277, Jul. 2011.

15.
D. Xenakis, N. Passas, L. Merakos, and C. Verikoukis, "Mobility Management for Femtocells in LTE-Advanced: Key Aspects and Survey of Handover Decision Algorithms," IEEE Communications Surveys & Tutorials, No. 99, pp. 1-28, July 2013.

16.
K. Zheng, F. Hu, L. Lei, and W. Wang, "Interference Coordination between Femtocells in LTE-Advanced Networks with Carrier Aggregation," in Proc. Chinacom 2010, pp. 1-5, Aug. 2010.

17.
S. Uygungelen, G. Auer, and Z. Bharucha, "Graph-based Dynamic Frequency Reuse in Femtocell Networks," in Proc. IEEE VTC 2011-Spring, pp. 1-6, May 2011.

18.
J. Lee and M. Lee, "A QoS Provisioning Based on Load Balancing for Hand-over in OFDMA System," Journal of the Korea Society of Computer and Information, Vol. 18 No. 2, pp. 59-68, Feb. 2013. crossref(new window)

19.
J. Lee and M. Lee, "Interrelation Based Resource Allocation Scheme for Mobile Multimedia Networks," Journal of the Korea Society of Computer and Information, Vol. 15 No. 8, pp. 79-87, Oct. 2010.